SU1645019A1 - Turbocyclone - Google Patents

Description

t

(21) 4723944/03

(22) 07.08.89

(46) 04.30.91. Bul V 16 (75) yal.V.Npzarenko, A.A.Inr ép, P.I. Pilov, in the t.V.Nazarenko, N.V.Vinogradov and E.M.Krodsky

(53) 6.2..8)

(56) Certificate of certification CC € R I 481316, cl. At 03 R 5/34, 1970.

USSR Author's Certificate R 1261216, c. В 04 С 9/00, 1986.

(54) TURSCHICLON

(57) The invention relates to the beneficiation of minerals. The goal is to exploit the effectiveness of separation.

The pulp is introduced into housing 1 with feed 2, Peskovo 3 and drain 4 nozzles (P). Drain P 4 is installed with the possibility of rotation and is made with helix 6 on the inner surface, the turns of which are directed oppositely to the keeper (yenik) P 4. The height of the helix is 0.05-0.2 of diameter P 4, the helix pitch is 0.1-0.5 tons P 4. The pulp is unwound by an impeller 5 mounted on P 4. Particles are separated by size. When the pulp passes through P 4, the large particles in the stream are concentrated near its wall and the helix 6 leads out to I 4 back into the body 1. 2 Il.

The invention relates to the enrichment of minerals and can be used in the separation by size of a liquid medium.

The purpose of the invention is to increase the efficiency of separation.

In Fig. 1, a turbo-cyclone is shown, obdue view; figure 2 - drain pipe with a spiral.

The turbo-cyclone includes a housing 1 with a supply nozzle 2 and a sand nozzle 3. On the shaft 4 in the case 1, an impeller 5 is fixed. The shaft 4 is hollow and is a drain nozzle, on the inner surface of which a coil 6 is fixed, the turns of which are opposite to the direction of rotation of the drain nozzle, the height of the helix is 0.05–0.2 of the diameter of the discharge nozzle, the helix of the helix is 0.1–0.5 of the length of the discharge nozzle.

Supply turbotsiklon spiral fixed on the inner surface of the drain pipe, the coils of which are directed opposite to the direction of rotation of the drain pipe, eliminates the ingress of large particles into the drain and increase the efficiency of separation

Particles that are larger than the required nominal size of the drain, hit with a vortex-shaped drainage flow into the enemy from the discharge nozzle, under the action of centrifugal force are concentrated near the wall of the nozzle. Some of them move along the wall, some (the largest ones) are centrifuged - stick to the wall. The helix of these particles are led out of the discharge nozzle into the separation chamber and are involved in the re-classification process, thus increasing the separation efficiency.

Turbocik it works as follows.

The suspension through the feed pipe 2 enters the housing 1 on the impeller 5, the latter, rotating, spins the suspension, creating a centrifugal field. Under the force of the floor

Q in body 1 separation occurs

particle size. Mostly large particles are concentrated at the walls of housing 1; moving along the walls and discharging through the sand nozzles

5 3. The fine particles are concentrated at the axis of the apparatus and are discharged by a vortex-discharged flow through the discharge pipe 4. When the suspension passes through the drain pipe 4,

In the stream, large particles are concentrated at its wall and coil 6 is withdrawn from drain pipe 4 back into housing 1 for re-classification, where under the action of the forces of the centro5, the bending field is thrown against the walls of the casing 1 and carried away by the stream for unloading through the sand nozzle 3.

Claims (1)

Invention Formula Turbo-cycloi, which includes a housing, a power supply, a drain and a sand pipe, an impeller mounted on a rotatable drain pipe, characterized in that, in order to increase separation efficiency, it is provided with a spiral fixed on the inner surface of the drain pipe, and the coils of the helix are directed opposite to the direction of rotation of the drain nozzle, the height of the helix is 0.05-0.2 of the diameter of the drain nozzle, and the hag of the helix is 0.1-0.5 of the length of the drain nozzle. I. FIG. 2